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cluster.go
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cluster.go
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// Copyright 2017 Pilosa Corp.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package pilosa
import (
"encoding/binary"
"hash/fnv"
"time"
"github.com/pilosa/pilosa/internal"
)
const (
// DefaultPartitionN is the default number of partitions in a cluster.
DefaultPartitionN = 256
// DefaultReplicaN is the default number of replicas per partition.
DefaultReplicaN = 1
)
// NodeState represents node state returned in /status endpoint for a node in the cluster.
const (
NodeStateUp = "UP"
NodeStateDown = "DOWN"
)
// Node represents a node in the cluster.
type Node struct {
Host string `json:"host"`
InternalHost string `json:"internalHost"`
status *internal.NodeStatus `json:"status"`
}
// SetStatus sets the NodeStatus.
func (n *Node) SetStatus(s *internal.NodeStatus) {
n.status = s
}
// SetState sets the Node.status.state.
func (n *Node) SetState(s string) {
if n.status == nil {
n.status = &internal.NodeStatus{}
}
n.status.State = s
}
// Nodes represents a list of nodes.
type Nodes []*Node
// Contains returns true if a node exists in the list.
func (a Nodes) Contains(n *Node) bool {
for i := range a {
if a[i] == n {
return true
}
}
return false
}
// ContainsHost returns true if host matches one of the node's host.
func (a Nodes) ContainsHost(host string) bool {
for _, n := range a {
if n.Host == host {
return true
}
}
return false
}
// Filter returns a new list of nodes with node removed.
func (a Nodes) Filter(n *Node) []*Node {
other := make([]*Node, 0, len(a))
for i := range a {
if a[i] != n {
other = append(other, a[i])
}
}
return other
}
// FilterHost returns a new list of nodes with host removed.
func (a Nodes) FilterHost(host string) []*Node {
other := make([]*Node, 0, len(a))
for _, node := range a {
if node.Host != host {
other = append(other, node)
}
}
return other
}
// Hosts returns a list of all hostnames.
func (a Nodes) Hosts() []string {
hosts := make([]string, len(a))
for i, n := range a {
hosts[i] = n.Host
}
return hosts
}
// Clone returns a shallow copy of nodes.
func (a Nodes) Clone() []*Node {
other := make([]*Node, len(a))
copy(other, a)
return other
}
// Cluster represents a collection of nodes.
type Cluster struct {
Nodes []*Node
NodeSet NodeSet
// Hashing algorithm used to assign partitions to nodes.
Hasher Hasher
// The number of partitions in the cluster.
PartitionN int
// The number of replicas a partition has.
ReplicaN int
// Threshold for logging long-running queries
LongQueryTime time.Duration
}
// NewCluster returns a new instance of Cluster with defaults.
func NewCluster() *Cluster {
return &Cluster{
Hasher: &jmphasher{},
PartitionN: DefaultPartitionN,
ReplicaN: DefaultReplicaN,
}
}
// NodeSetHosts returns the list of host strings for NodeSet members.
func (c *Cluster) NodeSetHosts() []string {
if c.NodeSet == nil {
return []string{}
}
a := make([]string, 0, len(c.NodeSet.Nodes()))
for _, m := range c.NodeSet.Nodes() {
a = append(a, m.Host)
}
return a
}
// NodeStates returns a map of nodes in the cluster with each node's state (UP/DOWN) as the value.
func (c *Cluster) NodeStates() map[string]string {
h := make(map[string]string)
for _, n := range c.Nodes {
h[n.Host] = NodeStateDown
}
// we are assuming that NodeSetHosts is a subset of c.Nodes
for _, m := range c.NodeSetHosts() {
if _, ok := h[m]; ok {
h[m] = NodeStateUp
}
}
return h
}
// Status returns the internal ClusterStatus representation.
func (c *Cluster) Status() *internal.ClusterStatus {
return &internal.ClusterStatus{
Nodes: encodeClusterStatus(c.Nodes),
}
}
// encodeClusterStatus converts a into its internal representation.
func encodeClusterStatus(a []*Node) []*internal.NodeStatus {
other := make([]*internal.NodeStatus, len(a))
for i := range a {
other[i] = a[i].status
}
return other
}
// NodeByHost returns a node reference by host.
func (c *Cluster) NodeByHost(host string) *Node {
for _, n := range c.Nodes {
if n.Host == host {
return n
}
}
return nil
}
// Partition returns the partition that a slice belongs to.
func (c *Cluster) Partition(index string, slice uint64) int {
var buf [8]byte
binary.BigEndian.PutUint64(buf[:], slice)
// Hash the bytes and mod by partition count.
h := fnv.New64a()
h.Write([]byte(index))
h.Write(buf[:])
return int(h.Sum64() % uint64(c.PartitionN))
}
// FragmentNodes returns a list of nodes that own a fragment.
func (c *Cluster) FragmentNodes(index string, slice uint64) []*Node {
return c.PartitionNodes(c.Partition(index, slice))
}
// OwnsFragment returns true if a host owns a fragment.
func (c *Cluster) OwnsFragment(host string, index string, slice uint64) bool {
return Nodes(c.FragmentNodes(index, slice)).ContainsHost(host)
}
// PartitionNodes returns a list of nodes that own a partition.
func (c *Cluster) PartitionNodes(partitionID int) []*Node {
// Default replica count to between one and the number of nodes.
// The replica count can be zero if there are no nodes.
replicaN := c.ReplicaN
if replicaN > len(c.Nodes) {
replicaN = len(c.Nodes)
} else if replicaN == 0 {
replicaN = 1
}
// Determine primary owner node.
nodeIndex := c.Hasher.Hash(uint64(partitionID), len(c.Nodes))
// Collect nodes around the ring.
nodes := make([]*Node, replicaN)
for i := 0; i < replicaN; i++ {
nodes[i] = c.Nodes[(nodeIndex+i)%len(c.Nodes)]
}
return nodes
}
// OwnsSlices find the set of slices owned by the node per Index
func (c *Cluster) OwnsSlices(index string, maxSlice uint64, host string) []uint64 {
var slices []uint64
for i := uint64(0); i <= maxSlice; i++ {
p := c.Partition(index, i)
// Determine primary owner node.
nodeIndex := c.Hasher.Hash(uint64(p), len(c.Nodes))
if c.Nodes[nodeIndex].Host == host {
slices = append(slices, i)
}
}
return slices
}
// Hasher represents an interface to hash integers into buckets.
type Hasher interface {
// Hashes the key into a number between [0,N).
Hash(key uint64, n int) int
}
// NewHasher returns a new instance of the default hasher.
func NewHasher() Hasher { return &jmphasher{} }
// jmphasher represents an implementation of jmphash. Implements Hasher.
type jmphasher struct{}
// Hash returns the integer hash for the given key.
func (h *jmphasher) Hash(key uint64, n int) int {
b, j := int64(-1), int64(0)
for j < int64(n) {
b = j
key = key*uint64(2862933555777941757) + 1
j = int64(float64(b+1) * (float64(int64(1)<<31) / float64((key>>33)+1)))
}
return int(b)
}